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Focus on …• explaining the
relationships between similar triangles and the defi nition of the tangent ratio
• identifying the hypotenuse, opposite side, and adjacent side for a given acute angle in a right triangle
• developing strategies for solving right triangles
• solving problems using the tangent ratio
Focus on …• explaining the
relationships between similar triangles and the defi nition of the tangent ratio
• identifying the hypotenuse, oppositeside, and adjacent side for a given acute anglein a right triangle
• developing strategies for solving right triangles
• solving problems using the tangent ratio
The Tangent Ratio3.1
In addition to the Pacifi c Ocean, there are many lakes in Western Canada that are ideal for sailing. One important aspect of boating is making sure you get where you want to go. Navigation is an area in which trigonometry has played a crucial role; and it was one of the early reasons for developing this branch of mathematics.
People have used applications of trigonometry throughout history. The Egyptians used features of similar triangles in land surveying and when building the pyramids. The Greeks used trigonometry to tell the time of day or period of the year by the position of the various stars. Trigonometry allowed early engineers and builders to measure angles and distances with greater precision. Today, trigonometry has applications in navigating, surveying, designing buildings, studying space, etc.
Vancouver, British Columbia
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Investigate the Tangent RatioSailing is a very popular activity. One of the
wind
tacking
limitations of sailing is that a boat cannot sail directly into the wind. Using a technique called tacking, it is possible to sail in almost any direction, regardless of the wind direction. When sailing on a tack, you are forced to sail slightly off course and then compensate for the distance sailed when you change direction. You can use trigonometry to determine the distance a boat is off course before changing direction.
1. a) On a sheet of grid paper draw a horizontal line 10 cm in length to represent the intended direction.
b) Draw a tacking angle, θ, of 30°.
c) Every two centimetres, along your horizontal line, draw a vertical line to indicate the off course distance. Label the fi ve triangles you created, �ABC, �ADE, �AFG, �AHI, and �AJK.
direction sailed
intended directionA
off coursedistance
θ
2. Measure the base and the height for each triangle. Complete the following table to compare the off course distance to the intended direction. In the last column, express the
ratio, off course distance ____ intended direction
, to four decimal places.
TriangleIntended Direction
Off Course Distance
Off Course Distance
____ Intended Direction
�ABC
�ADE
�AFG
�AHI
�AJK
Materials• grid paper
• protractor
• ruler
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3. a) The diagram you drew in step 1c) forms a series of nested similar triangles. How do you know the triangles are similar?
b) Use your knowledge of similar triangles to help describe how changing the side lengths of the triangle affects the
ratio off course distance ____ intended direction
.
4. a) Use your calculator to determine the tangent ratio of 30o.To calculate the tangent ratio of 30o, make sure your calculator is in the degree mode.
Press C TAN 30 = .
b) How does the value on your calculator relate to the data in step 2?
5. In the two right triangles shown, the hypotenuse is labelled and an angle is labelled with a variable. Copy each triangle. Use the words opposite and adjacent to label the side opposite the angle and the side adjacent to the angle.
hypotenuse
�
�
θ
hypotenuse
�
�
α
6. Refl ect and Respond
a) Use your results from steps 1 to 4 and the terminology from step 5 to describe a formula you could use to calculate the tangent ratio of any angle.
b) Use your formula to state the tangent ratios for ∠A and ∠B in the following diagram.
B
b
a
c
A
C
• vertices of a triangle
are commonly labelled
with uppercase letters,
for example �ABC
• angles of a triangle are
commonly labelled with
Greek letter variables
• some common Greek
letters used are
theta, θ, alpha, α,
and beta, β.
Did You Know?
hypotenuse
• the side opposite the right angle in a right triangle
opposite side
• the side across from the acute angle being considered in a right triangle
• the side that does not form one of the arms of the angle being considered
adjacent side
• the side that forms one of the arms of the acute angle being considered in a right triangle, but is not the hypotenuse
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Link the IdeasA trigonometric ratio is a ratio of the
hypotenuse
opposite
adjacent
B
A
C
measures of two sides of a right triangle.
One trigonometric ratio is the tangent ratio .
The short form for the tangent ratio of angle A is tan A.
tangent A = length of side opposite ∠A
______ length of side adjacent to ∠A
Example 1 Write a Tangent Ratio
Write each trigonometric ratio.
A
B
20 12
16 C
a) tan Ab) tan B
Solution
a) tan A = opposite
__ adjacent
b) tan B = opposite
__ adjacent
tan A = BC _ AC
tan B = AC _ BC
tan A = 12 _ 16
tan B = 16 _ 12
tan A = 3 _ 4 tan B = 4 _
3
Your TurnCalculate each trigonometric ratio. N M5
1213
L
a) tan Lb) tan N
tangent ratio
• for an acute angle in a right triangle, the ratio of the length of the opposite side to the length of the adjacent side adjacent
• tan A = opposite
__ adjacent
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Example 2 Calculate a Tangent and an Angle
a) Calculate tan 25° to four decimal places.
b) Draw a triangle to represent tan θ = 5 _ 4
. Calculate the angle θ to the nearest tenth of a degree.
Solution
a) tan 25° ≈ 0.4663
b) Since tan θ = 5 _ 4
, the side opposite the
5
4
A
CB
θangle θ is labelled 5 and the side adjacent to the angle θ is labelled 4.
The inverse function on a calculator allows you to apply the tangent ratio in reverse. If you know the ratio, you can calculate the angle whose tangent this ratio represents.
tan θ = 5 _ 4
θ = tan-1 ( 5 _ 4
)
θ = 51.340…° The angle θ is 51.3°, to the
nearest tenth of a degree.
Your TurnExplore your particular calculator to determine the sequence of keys required. Then, calculate each tangent ratio and angle.
θ Tan θ
27°
45°
57°
θ Tan θ
0.5095
0.5543
1.4653
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Example 3 Determine a Distance Using the Tangent Ratio
A surveyor wants to determine the width of a river for a proposed bridge. The distance from the surveyor to the proposed bridge site is 400 m. The surveyor uses a theodolite to measure angles. The surveyor measures a 31° angle to the bridge site across the river.What is the width of the river, to the nearest metre?
31°
400 m
proposedbridge
river
Solution
Let x represent the distance across
31°
400 madjacent
oppositex
the river.Identify the sides of the triangle in reference to the given angle of 31°.
tan θ = opposite
__ adjacent
tan 31° = x _ 400
400(tan 31°) = x 240.344… = xTo the nearest metre, the width of the river is 240 m.
Your Turn
63°2 m
A ladder leaning against a wall forms an angle of 63° with the ground. How far up the wall will the ladder reach if the foot of the ladder is 2 m from the wall?
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Example 4 Determine an Angle Using the Tangent Ratio
A small boat is 95 m from the base of a lighthouse that has a height of 36 m above sea level. Calculate the angle from the boat to the top of the lighthouse. Express your answer to the nearest degree.
36 m
θ
95 m
Solution
Identify the sides of the triangle in reference to the angle of θ.
opposite
adjacent
36 mθ
95 m
tan θ = opposite
__ adjacent
tan θ = 36 _ 95
θ = 20.754…
The angle from the boat to the top of the lighthouse is approximately 21°.
Your TurnA radio transmission tower is to be supported by a guy wire. The wire reaches 30 m up the tower and is attached to the ground a horizontal distance of 14 m from the base of the tower. What angle does the guy wire form with the ground, to the nearest degree?
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Key Ideas• In similar triangles, corresponding angles are equal, and
corresponding sides are in proportion. Therefore, the ratios of the lengths of corresponding sides are equal.
• The sides of a right triangle are labelled according to a reference angle.
hypotenuseopposite
adjacent
B
A Cθ
hypotenuse
opposite
adjacent
B
A C
β
• The tangent ratio compares the length of the side opposite the reference angle to the length of the side adjacent to the angle in a right triangle.
tan θ = length of side opposite θ
_____ length of side adjacent to θ
• You can use the tangent ratio to� determine the measure of one of the acute angles when the
lengths of both legs in a right triangle are known � determine a side length if the measure of one acute angle and
the length of one leg of a right triangle are known
Check Your UnderstandingPractise 1. Identify the hypotenuse, opposite, and adjacent sides
associated with each specifi ed angle.
a) ∠X b) ∠T c) ∠L
Z
X Y
S
TR
M
NL
2. Draw right �DEF in which ∠F is the right angle.
a) Label the leg opposite ∠D and the leg adjacent to ∠D.
b) State the tangent ratio of ∠D.
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3. Determine each tangent ratio to four decimal places using a calculator.
a) tan 74° b) tan 45°
c) tan 60° d) tan 89°
e) tan 37° f) tan 18°
4. Determine the measure of each angle, to the nearest degree.
a) tan A = 0.7 b) tan θ = 1.75
c) tan β = 0.5543 d) tan C = 1.1504
5. Draw and label a right triangle to illustrate each tangent ratio. Then, calculate the measure of each angle, to the nearest degree.
a) tan α = 2 _ 3
b) tan B = 5 _ 2
6. Determine the value of each variable. Express your answer to the nearest tenth of a unit.
a)
33°30.5 m
x
b)
20 km
airport 1.25 kmθ
7. Kyle Shewfelt, from Calgary, AB, was the Olympic fl oor exercise champion in Athens in 2004. Gymnasts perform their routines on a 40-ft by 40-ft mat. They use the diagonal of the mat because it gives them greater distance to complete their routine.
a) Use the tangent ratio to determine the angle of the gymnastics run relative to the sides of the mat.
b) To the nearest foot, how much longer is the diagonal of the mat than one of its sides?
Apply 8. Claudette wants to calculate the angles of
the triangle containing the fl eur-de-lys on the Franco-Albertan fl ag. She measures the legs of the triangle to be 154 cm and 103 cm. What are the angle measures?
The Franco-Albertan
fl ag was created by
Jean-Pierre Grenier. The
fl ag was adopted by the
Association canadienne-
française de l’Alberta in
March 1982.
Did You Know?
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9. A ramp enables wheelchair users and people pushing wheeled objects to more easily access a building.
x3 ft
6°
a) Determine the horizontal length, x, of the ramp shown. State your answer to the nearest foot.
b) For a safe ramp, the ratio of vertical distance : horizontal distance needs to be less than 1 : 12. Would the ramp shown be considered a safe ramp? Explain.
10. Unit Project A satellite radio cell tower provides signals to three substations, T1, T2, and T3. The three substations are each located along a stretch of the main road. The cell tower is located 24 km down a road perpendicular to the main road. A surveyor calculates the angle from T1 to the cell tower to be 64°, from T2 to the cell tower to be 33°, and from T3 to the cell tower to be 26°. Calculate the distance of each substation from the intersection of the two roads. Express your answers to the nearest tenth of a kilometre.
T1main road
A T2 T364° 33° 26°
24 km
cell tower
11. In the construction of a guitar, it is important to consider the tapering of the strings and neck. The tapering affects the tone that the strings make. For the Six String Nation Guitar shown, suppose the width of the neck is tapered from 56 mm to 44 mm over a length of 650 mm. What is the angle of the taper for one side of the guitar strings?
θθ
The Six String Nation
Guitar, nicknamed
Voyageur, is made from
63 pieces of history and
heritage, from every part
of Canada. It represents
many different cultures,
communities, and
characters. The guitar
is made from pieces of
wood, bone, steel, shell,
and stone from every
province and territory.
It literally embodies
Canadian history.
Did You Know?
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12. When approaching a runway, a pilot needs to maneuver the aircraft, so that it can approach the runway at a constant angle of 3°. A pilot landing at Edmonton International Airport begins the fi nal approach 30 380 ft from the end of the runway. At what altitude should the aircraft be when beginning the fi nal approach? State your answer to the nearest foot.
13. The Idaà Trail is a traditional route of the Dogrib, an Athapaskan-speaking group of Dene. It stretches from Great Bear Lake to Great Slave Lake, in the Northwest Territories. Suppose a hill on the trail climbs 148 ft vertically over a horizontal distance of 214 ft.
a) Calculate the angle of steepness of the hill.
b) How far would you have to climb to get to the top of the hill?
Extend 14. One of the Ekati mine’s pipes,
called the Panda pipe, has northern and southern gates. A communications tower stands 100 m outside the north gate. The tower can be seen from a point 300 m east of the south gate at camp A.
a) The distance between camp A and camp B is 600 m. Calculate the diameter of the Panda pipe.
b) Calculate the distance from camp B to the tower.
Panda Pipe
Ekati mine is Canada’s
fi rst diamond mine. It is
located 200 km south of
the Arctic Circle in the
Northwest Territories.
Diamond mines contain
pipes, which are
cylindrical pits where
diamonds are founds.
Did You Know?
Pandapipe
openpit
mine
100 m
300 m
600 m
40°
tower camp B
camp A
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15. Habitat for Humanity Saskatoon has designed a home that provides passive solar features. The idea is to keep the sun off the outside south wall during the summer months and to have the wall exposed to the sun as much as possible during the winter months. The highest angle of the sun during the summer months is 73°.
a) Suppose the wall of the house is 20 ft tall. How much overhang on the roof trusses should be provided so that the shadow of the noonday sun reaches the bottom of the wall during the summer months?
b) The lowest angle of
20 ft
28° 73°
summer sun
winter sun
the sun during the winter months is 28°. What height of the wall will be in direct sunlight during the winter months?
16. Nistowiak Falls, located in Lac LaRonge Provincial Park is one of the highest waterfalls in Saskatchewan. Delana, a surveyor, needs to measure the distance across the falls. She sighted two points, C and D, from the baseline AB. The length of baseline AB is 30 m. Delana recorded these angle measures: ∠ACD = 90°, ∠CAB = 90°, ∠ACB = 31.3°, and ∠CDA = 44.6°
a) Determine the distance AC across the falls. Express your answer to the nearest tenth of a metre.
b) Determine the distance CD. Express your answer to the nearest tenth of a metre.
A
B
D
C
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17. Unit Project The fi rst sound recordings were done on wax cylinders that were 5 cm in diameter and 10 cm long. Wax cylinders were capable of recording about 2 min of sound. Modern music storage devices can have tremendous memory and store thousands of songs. Janine calculated the number of wax cylinders needed to match a 32 GB storage capacity. Imagine that these cylinders are stacked one on top of another. From a distance of 10 m, the angle of elevation to the top of the stack would be 89.5°.
a) Draw and label a diagram to represent the situation.
b) Determine the height of the stack of cylinders, to the nearest hundredth of a metre.
c) How many cylinders would need to be stacked to match 32 GB of storage?
Create Connections 18. Copy the following graphic organizer. For each item, describe its
meaning and how it relates to the tangent ratio.
tangent
θ = 63°
tan 42°
tan θ = 1.428tan θ = 3–4
opposite side
adjacent side
ratio
19. Draw a right triangle in which the tangent ratio of one of the acute angles is 1. Describe the triangle.
20. Devin stores grain in a cylindrical
2 m
9 m1.1 m
granary. Suppose Devin places a 2-m-tall board 9 m from the granary and 1.1 m away from a point on the ground. Describe how Devin could use trigonometry to calculate the angle formed with the ground and the top of the granary. Then, determine this angle.
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21. MINI LAB When measuring inaccessible distances, a surveyor can take direct measurements using a transit. A transit can measure both horizontal and vertical angles.
Step 1 Construct a transit as shown in the diagram. Pin the straw at the centre of the protractor.
straw
pin tapetape
Step 2 Explain how a transit could be used to assess the distance to an object. Hint: You will need to draw and measure a baseline. This is the line from A to B in the diagram.
A B
Step 3 To calculate the distance to some objects in your schoolyard, use your transit to measure the required angles.
ObjectLength of
Baseline ABMeasure
of ∠ADistance to the
Object
Materials• piece of cardboard
• large protractor
• drinking straw
• tape
• pin
• measuring tape
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